In Focus

Definitive diverticular hemorrhage: Diagnosis and management


 

Initial management

Patients with acute, severe hematochezia should be triaged to an inpatient setting with a monitored bed. Admission to an intensive care unit should be considered for patients with hemodynamic instability, persistent bleeding, and/or significant comorbidities. Patients with TIC hemorrhage often require resuscitation with crystalloids and packed red blood cell transfusions for hemoglobin less than 8 g/dl.4 Unlike upper GI hemorrhage, which has been extensively reported on, data regarding a more restrictive transfusion threshold, compared with a liberal transfusion threshold, in lower intestinal bleeding are very limited. Correction of underlying coagulopathies is recommended but should be individualized, particularly in those patients on antithrombotic agents or with underlying bleeding disorders.

Urgent diagnosis and hemostasis

Urgent colonoscopy within 24 hours is the most accurate way to make a diagnosis of definitive diverticular hemorrhage and to effectively and safely treat them.2-4,10,11 For patients with severe hematochezia, when the colonoscopy is either not available in a medical center or does not reveal the source of bleeding, nuclear scintigraphy or angiography (CT, MRI, or interventional radiology [IR]) are recommended. CT angiography may be particularly helpful to diagnose patients with hemodynamic instability who are suspected to have active TIC bleeding and are not able to complete a bowel preparation. However, these imaging techniques require active bleeding at the time of the study to be diagnostic. This SRH is also uncommon for definitive diverticular hemorrhage, so the diagnostic yield is usually quite low.2-5,10,11 An additional limitation of scintigraphy and CT or MRI angiography is that, if active bleeding is found, some other type of treatment, such as colonoscopy, IR angiography, or surgery, will be required for definitive hemostasis.

For urgent colonoscopy, adequate colon preparation with a large volume preparation (6-8 liters of polyethylene glycol-based solution) is recommended to clear stool, blood, and clots to allow endoscopic visualization and localization of the bleeding source. Use of a nasogastric tube should be considered if the patient is unable to drink enough prep.2-4,13 Additionally, administration of a prokinetic agent, such as Metoclopramide, may improve gastric emptying and tolerance of the prep. During colonoscopy, careful inspection of the colonic mucosa during insertion and withdrawal is important since lesions may bleed intermittently and SRH can be missed. An adult or pediatric colonoscope with a large working channel (at least 3.3 mm) is recommended to facilitate suctioning of blood clots and stool, as well as allow the passage of endoscopic hemostasis accessories. Targeted water-jet irrigation, an expert colonoscopist, a cap attachment, and adequate colon preparation are all predictors for improved diagnosis of definitive diverticular hemorrhage.4,14

SRH in definitive TIC bleeds all have a high risk of TIC rebleeding,2-4,10,11 including active bleeding, nonbleeding visible vessel, adherent clot, and a flat spot (See Figure).

Figure: Stigmata of recent hemorrhage in definitive TIC hemorrhage is shown, as well as prevalence on urgent colonoscopy when diagnosed: A. Active arterial bleeding, 26%; B. Nonbleeding visible vessel, 24%; C. Adherent clot, 37%; D. Flat spot, 13%. Courtesy Dr. Vivy T. Cusumano, Dr. Christopher L. Paiji, and Dr. Dennis M. Jensen

Figure: Stigmata of recent hemorrhage in definitive TIC hemorrhage is shown, as well as prevalence on urgent colonoscopy when diagnosed: A. Active arterial bleeding, 26%; B. Nonbleeding visible vessel, 24%; C. Adherent clot, 37%; D. Flat spot, 13%.

Based on CURE Hemostasis Group data of 118 definitive TIC bleeds, 26% had active bleeding, 24% had a nonbleeding visible vessel, 37% had an adherent clot, and 13% had a flat spot (with underlying arterial blood flow by Doppler probe monitoring).4 Approximately 50% of the SRH were found in the neck of the TIC and 50% at the base, with actively bleeding cases more often from the base. In CURE Doppler endoscopic probe studies, 90% of all stigmata had an underlying arterial blood flow detected with the Doppler probe.4,10 The Doppler probe is reported to be very useful for risk stratification and to confirm obliteration of the arterial blood flow underlying SRH for definitive hemostasis.4,10

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